Everyday Compounds – Aluminium Chlorohydrate

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The second in the ‘Everyday Compounds’ series looks at a chemical that the majority of us probably have sitting somewhere in our home. Aluminium chlorohydrate is the active ingredient in many antiperspirants, so how does it work – and why does a casual google search for it bring up a plethora of links with breast cancer?

Aluminium chlorohydrate (and other aluminium-based compounds that are sometimes employed instead) work as antiperspirants by temporarily ‘plugging’ sweat ducts, preventing the passage of sweat to the skin’s surface. The exact mechanism by which this occurs has been debated, but it’s generally agreed to be because the aluminium chlorohydrate can form a polymeric aluminium hydroxide-protein ‘plug’, which physically partially blocks perspiration from escaping the sweat glands. This plug slowly breaks down, which is why the effect of anti-perspirants isn’t permanent, and they have to be reapplied.

The concentration used in the majority of antiperspirants is in the range of 10-25% of whichever aluminium-based compound is being employed. If you’ve got a serious sweating problem, however, higher concentrations are available with a prescription.

Another use of aluminium chlorohydrate is as an anti-coagulant, or flocculating agent, in water and waste treatment. It acts to remove dissolved organic matter and small solid impurities, by causing them to aggregate together so they can be more easily removed.

Links with Cancer

Type aluminium chlorohydrate into a search engine, and amongst others, a number of results will appear seemingly linking aluminium chlorohydrate with breast cancer. Several loudly trumpet it as being a compound you should avoid in favour of ‘more natural’ alternatives – so, you’d presume they’ve got some pretty comprehensive research to hand as evidence for these strong-worded claims.

Of course not. To be fair, a number of them cite a study which does purport to show a link between aluminium-containing compounds and breast cancer; however, let’s look at this a little more closely. The study looks at aluminium levels in the breast of 17 breast cancer sufferers; they noted that aluminium levels were significantly raised in areas of the breast nearer the skin. So far, fair enough. However, they didn’t compare these levels to other areas in the body, nor to breast tissue in people not suffering from cancer. There was no comparison to what constitutes safe levels of aluminium within the body, and there’s some fantastic speculative language (lots of use of the word ‘potentially’) in their conclusion, where they link the aluminium levels to antiperspirants.

Additionally, another study examining the amount of aluminium absorbed from antiperspirants concluded that only 0.012% of the aluminium present is absorbed through the skin – that’s about 0.000004g per use. To put this in perspective, you’re absorbing more aluminium from your food in the same amount of time. As well as this, the limit for aluminium in bottled water is a lot higher, at 0.2mg per litre.

In conclusion – there is, currently, no scientific evidence definitively linking aluminium compounds in antiperspirants with cancer; more than that, there’s still no absolute evidence linking aluminium levels in tissue with cancer. There has been some research that shows the exposure of human breast cancer cells to 0.0001 mol/L solutions of aluminium compounds does result in increased migration and invasion of those cells; however, this was in a cell culture in a lab, and more research would be needed to confirm if the same is true within the human body. So, there’s no need to worry that you might be spraying cancer under your arms every morning.

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The Compound Interest Book

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